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Weight is the force generated by mass when it is in a gravitational field. When a body is outside of a gravitational field, it is weightless but it still has mass.So gravity doesn't exactly affect weight; gravity causes mass to have weight.
An object with mass that is suspended in a gravitational field will have what we call weight. Weight is the term we apply to the force on that object due to gravity.
The greater the mass of an object means it causes to have weight in a gravitational field.
weight is equal to mass times by gravity ie W=mg this means that gravitational field strength, multiplied by the amount of matter that something is made up of (ie, 50kg, 10g, etc) is it's weight. so, you would weigh less on the moon, because the gravitational field strength is less, though your mass would be the same.... represent an example of cause and effect.
Nothing directly. The weight of an object depends on the strength of the gravitational field which it is in. Mass is most closely related to it within earths gravitational field.
Mass is the property of a body that causes it to have weight in a gravitational field.
Weight is the force generated by mass when it is in a gravitational field. When a body is outside of a gravitational field, it is weightless but it still has mass.So gravity doesn't exactly affect weight; gravity causes mass to have weight.
Weight takes into account the gravitational field strength whereas mass is independent of the gravitational field strength.
An object with mass that is suspended in a gravitational field will have what we call weight. Weight is the term we apply to the force on that object due to gravity.
Weight is actually force in a fixed setting. In the context of a relatively large and uniform gravitational field (such as being on the surface of the planet), weight is the force along the line between the center of the gravitational field and the center of the object. That is, the weight of an object in such a gravitational field is the strength of that field multiplied by the mass of the object.
The greater the mass of an object means it causes to have weight in a gravitational field.
weight is equal to mass times by gravity ie W=mg this means that gravitational field strength, multiplied by the amount of matter that something is made up of (ie, 50kg, 10g, etc) is it's weight. so, you would weigh less on the moon, because the gravitational field strength is less, though your mass would be the same.... represent an example of cause and effect.
Nothing directly. The weight of an object depends on the strength of the gravitational field which it is in. Mass is most closely related to it within earths gravitational field.
The mass of any object is its attraction by gravity. If the ball is attracted by gravity, and the attraction is measured by scales, we might say that the ball has a weight of five kilograms, or a mass of five kilograms. We can put it another way by saying that mass is the property of a body that causes it to have weight in a gravitational field.
Mass is the amount of matter a body has. Gravity is a pulling force that pulls the object towards the core of the body. The weight of a body depends on the mass; gravity causes weight. Weight is a downwards force towards the core of the body that produces a gravitational field (e.g. Earth). The relation between the mass, the weight and the gravitational field strength is: W = m.g - where W is the weight of the object, m is the mass of the object and g is the gravitational field strength of the body (it is roughly about 10N/kg on Earth)
Every object has MASS. Its weight is dependent on the Gravitational Field it is immersed in. Weight changes based on position in the Gravitational Field. MASS is constant as long as the object stays intact.
Yes and no. The earth has mass and therefore weight, and is inside a gravitational field (several actually) but to "pick it up" would mean pulling it away from the sun, as bizarre as that seems. Inertia would be harder to overcome than gravity I imagine. The mass of the earth is a far more useful and meaningful concept.